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Conner, B. S. (B. S. ). (2011). Single Crystal Growth and Magnetic and Thermal Properties of Pb₂V₃₀₉. Retrieved from http://purl.flvc.org/fsu/fd/FSU_migr_etd-3464
Electrical insulators provide the opportunity to study the effects of magnetic interactions in the absence of conduction electrons. Since about ten years ago, experiments on a few insulating dimerized antiferromagnets have shown a low temperature, concave-down feature in magnetic susceptibility under magnetic fields larger than a critical value that was difficult to explain. Also, features in heat capacity remnant of the lambda anomaly associated with the superfluid transition in liquid 4He were observed after an applied magnetic field was increased beyond the same critical value. These observations are associated with long-range magnetic ordering that has been described as a Bose-Einstein condensation (BEC) of the integer spin excitations, the magnons. Although magnons cannot strictly form a BEC, the BEC description has been qualitatively successful in describing some of the measured quantities of the small number of insulating antiferromagnets that exhibit a field induced low temperature, concave-down susceptibility. Pb2V3O9 is one system that exhibits this field induced low temperature, concave-down magnetic susceptibility and has been ascribed this BEC description. This thesis outlines the following: 1. The floating zone crystal growth of single crystals of Pb2V3O9 is presented. This thesis outlines what is possibly the first successful effort to grow single crystals of Pb2V3O9 via the floating zone method. 2. Measurements of the physical properties of Pb2V3O9 with applied magnetic fields as large as 45 T, specifically those properties associated with the field-induced long range ordered phase, are presented. 3. The observation of glassy magnetic behavior in Pb2V3O9 observed for the first time in off-stoichiometric samples is presented. This glassy magnetic behavior is found to be in competition with the field-induced long range ordered phase.
floating zone crystal growth, Pb2V3O9, field induced magnetic ordering
Date of Defense
June 24, 2011.
Submitted Note
A Dissertation submitted to the Department of Physics in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Bibliography Note
Includes bibliographical references.
Advisory Committee
Vladimir Dobrosavljevic, Professor Co-Directing Dissertation; Luis Balicas, Professor Co-Directing Dissertation; Naresh Dalal, University Representative; James Brooks, Committee Member; Grigory Rogachev, Committee Member; Pedro Schlottmann, Committee Member.
Publisher
Florida State University
Identifier
FSU_migr_etd-3464
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Conner, B. S. (B. S. ). (2011). Single Crystal Growth and Magnetic and Thermal Properties of Pb₂V₃₀₉. Retrieved from http://purl.flvc.org/fsu/fd/FSU_migr_etd-3464